Overview. The present markets are: Industry Healthcare

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Toby Gilbert
5 years ago
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2 Agenda Overview of Mobile Industrial Robots Future Steps for Mobile Industrial Robots Products Safety & Certifications Case Studies Questions and Comments

professional market The purpose of the MiR robots is to automate

3 Overview MIR is a leading manufacturer of collaborative mobile robots MiR develops, manufactures and sells mobile robots for the professional market The purpose of the MiR robots is to automate in-house transportation The present markets are: Industry Healthcare

4 Market Demands Flexibility User-friendly Price & ROI Ownership (saves on external and expensive support) Quality

The History of MiR First construction idea

May 2013 Thomas Visti entered the company as

5 The History of MiR First construction idea was made of LEGO bricks start The Alfa-version was developed by the founder and co-owner Niels Jul Jacobsen in April Mobile Industrial Robots was established in May 2013 Thomas Visti entered the company as co-owner and holds the position as CEO from October MiR was acquired by Teradyne April 2018.

6 The Company Today We have installed robots in the manufacturing industry and healthcare sector. We have established partners all over the world. 88 employees 37 recruited in Winner of several international awards. Selected Successful Robotics Startup case by the Business Innovation Observatory part of the European Commission.

7 Born Global Odense Dortmund San Diego New York Barcelona Shanghai Singapore Odense New York Shanghai, Dortmund, Barcelona, Singapore San Diego

8 Distributors 126 distributors in 39 countries

9 References

10 Future Steps for Mobile Industrial Robots

Growth 2015-2018 (K) 30.000 25.000 Turnover EUR (K) 27.

11 Growth (K) Turnover EUR (K)

12 Products

3 m/s 1 ft/s Battery run time: 10 hours or 20 km 12.5 mi Weight: 62.5 kg 138 lbs.

13 Tech Specs Payload: 100 kg 220 lbs. Towing capacity (with MiRHook 200): 300 kg 660 lbs. Precision: +/-50 mm - +/- 2 of position +/- 10 mm - +/- 0.4 to docking marker Max speed forwards: 1.5 m/s 5.4 ft./s Max speed backwards: 0.3 m/s 1 ft/s Battery run time: 10 hours or 20 km 12.5 mi Weight: 62.5 kg 138 lbs. Battery charging: 0-80%: 2 hours Communication: Wi-Fi, Bluetooth, Ethernet and PLC Safety: Complies with EN1525 safety regulations, SICK safety lasers, PLd cat. 3 CE certified: Yes

14 Tech Specs Payload: 200 kg 440 lbs. Towing capacity (with MiRHook 200): 500 kg 1102 lbs. Precision: +/-50 mm - +/- 2 from reference point +/- 10 mm - +/- 0.4 to docking marker Max speed forwards: 1.1 m/s 3.6 ft./s Max speed backwards: 0.3 m/s 1ft/s Battery run time: 10 hours or 15 km 12.5 mi Weight: 62.5 kg 138 lbs. Battery charging: 0-80%: 2 hours Communication: Wi-Fi, Bluetooth, Ethernet and PLC Safety: Complies with EN1525 safety regulations, SICK safety lasers, PLd cat. 3 ESD approved: Yes CE certified: Yes Clean Room certified: Yes

15 Includes a VL Marker for accurate docking Laser guided into position

16 Automated in-house transport solutions Automatic pick-up and drop-off of carts Towing Capacity of MiRHook 100: 300 kg 661 lbs. Towing Capacity of MiRHook 200: 500 kg 1100 lbs.

17 Fleet Management for optimized robot traffic Handles up to 100 robots Automatic prioritization and selection of the robot best suited for a job, based on position and availability Planning of the use of different top modules Text message or notifications if obstacles prevent the robots from completing planned jobs

Benefits of MiR Robots Collaborative and

obstacles, even in very dynamic environments

higher-value activities Fast ROI: Do not

themselves off in less than a year Fast and

day before the robots are up and running

the fastest route to the destination Support

different processes or facility layouts Very

18 Benefits of MiR Robots Collaborative and Autonomous; Maneuver safely around people and obstacles, even in very dynamic environments Redeploy workers from pushing a cart to higher-value activities Fast ROI: Do not require any expensive installation and pay themselves off in less than a year Fast and simple implementation: It only takes about a day before the robots are up and running Increase productivity: Can work 24/7 and finds the fastest route to the destination Support changing business needs: Redeploy easily to different processes or facility layouts Very user-friendly: Easy to control via a simple robot interface that requires no prior programming experience Extremely flexible: Can be redeployed for different tasks with various top modules

19 AMR vs. AGV AMR Autonomous (collaborative) Mobile Robot AGV Automated Guided Vehicle Trackless, autonomous navigation AMR AGV Requires tracks e.g. magnetic stripes in the floor or wires Travels safely around people and obstacles Easy to expand/change work area Navigates dynamically using a map, allowing it to plan it s own path Stops at any obstacle without possibility to change route Expensive and time consuming to expand/change work area Restricted to fixed routes

20 An Open Interface Customize your own top module Conveyor bands Shelf lift Robot arms A World of Opportunities ERP Integration Safety units Hook for towing carts Click on the icons for application videos Your solution

21 MiR Academy Free online training tool for distributors and end-users. Divided in different modules that takes maximum 20 minutes each to complete Link for MiR Academy: Enables distributors and end-users to have the ownership of the robots

22 Safety & Certifications

8 m Extra navigation 3D Camera detect obstacles 2 meters ahead and from 5 cm to 80 cm up Top camera detects

23 Safety and Navigation MiR Safety System Two laser scanners ensure 360 visual projection around the robot 8 meters ahead The lasers scanners are Category Three, Perfomance Level D safety systems 1.8 m 0.8 m Extra navigation 3D Camera detect obstacles 2 meters ahead and from 5 cm to 80 cm up Top camera detects obstacles up to 1.40 meters height. 3D Camera enables a smooth navigation, where the robot is able to navigate around obstacles without stopping 2 m

laser scanners Planning Algorithm 2 SICK S300 Scanners 360 visual

24 Sensory Input Accelerometer and Gyroscope Dual Channel Encoders on each Wheel 4 Ultrasonic Sensors Speed measurement Feedback to laser scanners Planning Algorithm 2 SICK S300 Scanners 360 visual protection around the robot 3D Camera Enables navigation around obstacles

25 Mechanical and Technical Components Light: Customized lighting colors and patterns Used for communicating actions to people Sound: Beep Horn MP3/WAV files

26 CE Certified Signed Declaration of Conformity (CE Certification) delivered with each robot

27 ESD Certified MiR200 is ESD certified

28 Case studies

Case Studies Argon Medical uses a MiR200 robot for moving surgical

Watch video Two MiR100 robots have automated the monotonous tasks of

Watch video At Honeywell Analytics three MiR100 robots now do the

29 Case Studies Argon Medical uses a MiR200 robot for moving surgical needles from production in clean rooms to warehouse. Watch video Two MiR100 robots have automated the monotonous tasks of moving parts from production to warehouse at Flex. Watch video At Honeywell Analytics three MiR100 robots now do the internal transportation tasks and have freed up 6 fulltime employees for more valuable tasks. Watch video

Case Studies A fleet of four MiR100 robots is part of a fully

production lines and robotic cells. Watch video.

helping Magna-Power compete in a global market. Watch video.

30 Case Studies A fleet of four MiR100 robots is part of a fully automated production at Kamstrup, where the MiR robots connects production lines and robotic cells. Watch video. Two MiR100 robots have improved logistics and efficiency and are helping Magna-Power compete in a global market. Watch video. The Hospital of Southern Jutland uses a fleet of MIR robots for transporting blood samples and cancer medicine. Watch video.

31 Questions and Comments